CN115556423B

CN115556423B - Embossing process and equipment for processing flexible high-barrier composite film vacuum bag

Info

Publication number: CN115556423B
Application number: CN202210734611.3A
Authority: CN
Inventors: 王川彬; 李梦科; 陆婷; 邱志超
Original assignee: Yixing Boya New Material Technology Co ltd
Current assignee: Yixing Boya New Material Technology Co ltd
Priority date: 2022-06-27
Filing date: 2022-06-27
Publication date: 2023-08-25
Anticipated expiration: 2042-06-27
Also published as: CN115556423A

Abstract

The utility model discloses an embossing process and equipment for processing a flexible high-barrier composite film vacuum bag, which comprises an embossing box, wherein one side of the embossing box is rotatably connected with a wind-up roller through a supporting plate, the outer wall of the wind-up roller is wound with a vacuum bag, the other end of the vacuum bag penetrates through the embossing box, a rotating shaft is rotatably connected in the embossing box, two turntables are fixedly sleeved on the outer wall of the rotating shaft, one end of the rotating shaft extends to one side of the embossing box, a fixing plate is fixedly connected in the embossing box, and one side of the embossing box, which is close to the wind-up roller, is provided with a discharge hole.

Description

Embossing process and equipment for processing flexible high-barrier composite film vacuum bag

Technical Field

The utility model relates to the technical field of vacuum bag processing, in particular to an embossing process and embossing equipment for processing a flexible high-barrier composite film vacuum bag.

Background

Vacuum bags, also called reduced pressure packaging, are carried out according to the atmospheric pressure principle, and the main function of the vacuum bag is to remove oxygen, so that the food is prevented from being mildewed and rotten. Vacuum packaging is a process of pumping oxygen in the packaging bag and in food cells by using an air pump to make microorganisms lose living environment. The vacuum bag can also prevent oxidation of food, prevent food from off-flavor, and reduce vitamin A and C loss.

The utility model provides a vacuum bag embossing device with an announcement number of CN209580668U, and belongs to the technical field of vacuum bag processing. This vacuum bag knurling device includes the casing, and the left surface fixedly connected with four fixed plates of casing, and the equal joint of the opposite face of two fixed plates has first bearing, and two first bearings cup joint respectively at the both ends of knurling roller, and two knurling rollers up-and-down symmetry, and the opposite face of two knurling rollers and the surface overlap joint of vacuum bag body. This vacuum bag knurling device, through casing, cooling device, air-dry device, water tank, embossing roller, guide roll, water tank, backup pad, wind-up roll and the mutually supporting of bottom plate, the shower nozzle is continuous the water spray, has avoided vacuum bag body high temperature and has caused the destruction of knurling line, the cost is reduced promptly, can be efficient again carries out cooling to knurling line, air-dry device is bloied vacuum bag body, makes the moisture on vacuum bag body surface air-dried, has avoided moisture to cause the influence to knurling line.

However, the following disadvantages still exist in the above technical solutions:

1. because the thickness of the vacuum bags of different types is different, for example, the specification thickness of the rice vacuum bag is divided into a plurality of specifications such as 13C-15C,16C-18C and 19C-23C, but in the case, the position between the upper embossing roller and the lower embossing roller is fixed, so that the vacuum bag is easy to break when the vacuum bags with different thicknesses are embossed;

2. different patterns of different types of vacuum bags are different in embossing lines, and different patterns cannot be embossed on the vacuum bags on the same equipment according to the needs;

3. when the vacuum bag is embossed to be rolled, the vacuum bag is in a whole, the vacuum bag cannot be cut, and when the vacuum bag is used in the later period, the vacuum bag cannot be divided into a plurality of individuals for use;

4. the temperature of the vacuum bag after embossing is reduced by continuously spraying water vapor, so that water resources are wasted greatly.

Disclosure of Invention

The utility model aims to solve the problems that embossing cannot be carried out on vacuum bags with different thicknesses in the prior art, different patterns cannot be stamped on the vacuum bags according to the needs on the same equipment, the vacuum bags cannot be cut, and water resources are wasted greatly due to cooling of the vacuum bags.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a flexible high separation complex film vacuum bag processing is with embossing equipment, includes the embossing case, one side of embossing case is connected with the wind-up roll through the backup pad rotation, the outer wall of wind-up roll is around being equipped with the vacuum bag, and the other end of vacuum bag runs through the embossing case, the embossing incasement rotates and is connected with the axis of rotation, the fixed cover of outer wall of axis of rotation is equipped with two turntables, and the one end of axis of rotation extends to one side of embossing case, fixedly connected with fixed plate in the embossing case, one side that the embossing case is close to the wind-up roll is equipped with the discharge gate;

a selection component for selecting and embossing different patterns is arranged between the two turntables;

a cooling component for cooling the vacuum bag is arranged in the embossing box;

and a cutting assembly for cutting the vacuum bag is arranged in the fixing plate.

Preferably, the selection assembly comprises a plurality of first embossing rollers which are rotationally connected between two turntables, different patterns are printed on the outer walls of the first embossing rollers, one sides of the turntables, which are close to each other, are respectively provided with a plurality of sliding grooves, one sides of the sliding grooves, which are close to each other, are respectively connected with a U-shaped frame in a sliding manner, the U-shaped frames are rotationally connected with second embossing rollers, and an adjusting assembly for adjusting the interval between the first embossing rollers and the second embossing rollers is arranged in the embossing box.

Preferably, the adjusting part comprises a round rod penetrating through the embossing box, one end of the round rod extends into the embossing box and is fixedly connected with a hexagonal protruding block, a plurality of rotating rods are located in one rotating disc and are connected with threaded rods in the sliding grooves in a rotating mode, one end threads of the threaded rods penetrate through the U-shaped frame, a first bevel gear is fixedly sleeved on the outer wall of the threaded rods, a plurality of rotating rods extending into the sliding grooves are penetrated in the rotating disc in a rotating mode, one end of each rotating rod is fixedly connected with a second bevel gear located in the sliding groove, the second bevel gear is meshed with the first bevel gear, and one end, away from the second bevel gear, of each rotating rod is provided with a hexagonal clamping groove matched with the hexagonal protruding block.

Preferably, the cooling assembly comprises two fixing shafts penetrating through the embossing box, the outer walls of the two fixing shafts are fixedly sleeved with hollow liquid storage tubes located in the embossing box, the hollow liquid storage tubes are contacted with the vacuum bag, the inner walls of the hollow liquid storage tubes are fixedly connected with a plurality of cooling fins for cooling the water stored in the hollow liquid storage tubes, and the two cooling fins are fixedly connected with first synchronous wheels at the two ends of the fixing shafts.

Preferably, the cutting assembly comprises a groove arranged in a fixed plate, two risers are fixedly connected to the inner wall of the bottom of the groove, one side, close to each other, of each riser is slidably connected with an upper moving plate and a lower moving plate, two heating plates are fixedly connected to one side, close to each other, of each upper moving plate and each lower moving plate, rectangular holes are formed in the risers, rectangular blocks are fixedly connected to one side, far away from each other, of each upper moving plate and each lower moving plate, rectangular blocks are slidably connected to rectangular holes, two second tension springs are fixedly connected to one side, far away from each other, of each rectangular block, and one ends, far away from each other, of each second tension spring are fixedly connected to the inner wall of the top and the inner wall of each rectangular hole respectively.

Preferably, the inner wall of one side that the knurling case kept away from each other is all rotated and is run through there is the pivot, two the equal fixedly connected with of one end that the pivot is close to each other is located the rolling disc of recess, one side fixedly connected with two arc-shaped baffle that the rolling disc is close to the riser, the equal fixedly connected with circle piece of one end that upper moving plate was kept away from to two rectangle pieces that are located same rectangular hole, and circle piece and arc-shaped baffle cooperate, two the equal fixedly connected with second synchronizing wheel of one end that the pivot kept away from each other, pass through synchronous belt drive connection between second synchronizing wheel and the two first synchronizing wheels, one side of knurling case is through backing plate fixedly connected with driving motor, driving motor's output shaft and one of them pivot fixed connection.

Preferably, the outer wall cover of round bar establishes with embossing case one side fixed connection's first extension spring, the outer wall rotation cover of round bar is equipped with the ring, and the other end and the ring fixed connection of first extension spring can guarantee the stability of round bar when round bar outside removes or rotates through the cooperation of first extension spring and ring.

Preferably, the bottom fixedly connected with blade of going up the movable plate, and the blade is located between two heating plates, the top of movable plate is equipped with the groove of stepping down with blade matched with down, and in last movable plate and the in-process blade that the movable plate moved down to the centre run through the vacuum bag and extend to the groove of stepping down, can form many through-holes on the vacuum bag, make things convenient for the later stage to cut out the separation of good vacuum bag, and the through-hole that the blade pricked on the vacuum bag does not influence the wind-up roll to the rolling of vacuum bag.

Preferably, the sliding connection has two sliding plates in the discharge gate, two the equal fixedly connected with in one side that the sliding plate is close to each other is with the cotton that absorbs water that collides of vacuum bag, two the equal fixedly connected with spring in one side that the sliding plate is kept away from each other, the one end that the sliding plate was kept away from to the spring is with the inner wall fixed connection of discharge gate, at the in-process of wind-up roll rolling, two sliding plates respectively move to the centre under the elasticity effect of spring, and then two cotton that absorb water can clean vacuum bag top and bottom residual drop of water.

An embossing process of embossing equipment for processing a flexible high-barrier composite film vacuum bag comprises the following steps of:

s1, pulling a round rod outwards according to the needs of embossed lines, wherein a first tension spring is in a stretching state, the round rod drives a hexagonal lug to be separated from a hexagonal clamping groove, two turntables are driven to rotate through a rotating shaft, the turntables drive a plurality of first embossing rollers and second embossing rollers to rotate, the pulling force on the round rod is released until the needed first embossing rollers and second embossing rollers are located at the lowest position, the round rod and the hexagonal lug move into an embossing box under the pulling force of the first tension spring, the hexagonal lug just extends into the hexagonal clamping groove, the clamping of the round rod and the rotating rod is completed, and at the moment, the round rod can also brake the turntables and the rotating shaft;

s2, adjusting the distance between the corresponding first embossing roller and the corresponding second embossing roller according to the different thickness of the embossed vacuum bag, driving the hexagonal protruding block to rotate through the round rod, driving the rotating rod and the second bevel gear to rotate through the round rod due to the clamping connection of the hexagonal protruding block and the hexagonal clamping groove, and enabling the second bevel gear to be meshed with the first bevel gear, enabling the second bevel gear to drive the screw to rotate through the first bevel gear, enabling the screw to be in threaded connection with the U-shaped frame, enabling the U-shaped frame to drive the second embossing roller to perform corresponding lifting movement along with the rotation of the screw, and therefore controlling the distance between the second embossing roller and the first embossing roller, and avoiding the situation that the vacuum bag is scalded and broken when the distance between the first embossing roller and the second embossing roller is too small or the distance between the first embossing roller and the second embossing roller is too large;

s3, when the vacuum bag is embossed, the winding roller winds the vacuum bag, the driving motor is started to drive the rotating shaft, the second synchronous wheel and the rotating disc to rotate, the second synchronous wheel can drive the fixed shaft and the hollow liquid storage tube to rotate through the first synchronous wheel and the synchronous belt, the radiating fin is started, the water in the hollow liquid storage tube is cooled by the radiating fin, so that the temperature of the hollow liquid storage tube can be reduced, when the vacuum bag passes through the two hollow liquid storage tubes, the hollow liquid storage tube can cool the embossed vacuum bag, and the phenomenon that patterns of the vacuum bag crack or even deform due to the fact that the vacuum bag is still at a higher temperature after embossing is avoided;

s4, when the driving motor drives the rotating shaft and the rotating disc to rotate, the rotating disc drives the two arc-shaped baffles to rotate, the arc-shaped baffles are in contact with the round blocks along with the rotation of the arc-shaped baffles, the arc-shaped baffles drive the round blocks and the rectangular blocks to move towards the middle, so that the upper moving plate and the upper moving plate can move rapidly towards each other, at the moment, the second tension springs are in a stretching state, when the upper moving plate and the lower moving plate move towards each other, the upper layer and the lower layer of the vacuum bag are fused together by the heating plates on the lower moving plate and the lower moving plate, and the blades just penetrate through the vacuum bag to extend into the yielding grooves, so that the vacuum bag can be cut, the arc-shaped baffles can be conveniently and directly used at the later stage, the arc-shaped baffles are driven to continuously rotate along with the rotating disc to be separated from the round blocks, and the upper moving plates and the lower moving plates respectively move towards the rapid opposite directions under the action of the corresponding second tension springs, so that the blades are prevented from influencing the winding of the winding roller to wind up the vacuum bag;

s5, in the winding process of the winding roller, the two sliding plates respectively move towards the middle under the action of the elasticity of the springs, and then the two absorbent cottons can wipe residual water drops at the top and the bottom of the vacuum bag.

Compared with the prior art, the utility model provides the embossing equipment for processing the flexible high-barrier composite film vacuum bag, which has the following beneficial effects:

1. this flexible high separation complex film vacuum bag processing is with bottom fixedly connected with blade of last movable plate of knurling equipment, and the blade is located between two heating plates, the top fixedly connected with of movable plate down and blade matched with groove of stepping down, in the in-process blade that moves to the centre under last movable plate and the movable plate runs through the vacuum bag and extends to the groove of stepping down, can form many through-holes on the vacuum bag, make things convenient for the later stage to separate the vacuum bag that will tailor, and the through-hole that the blade pricked on the vacuum bag does not influence the wind-up roll to the rolling of vacuum bag.

2. This embossing equipment's for flexible high separation complex film vacuum bag processing one side sliding connection that two risers are close to each other has movable plate and lower movable plate, go up the equal fixedly connected with two heating plates of one side that movable plate and lower movable plate are close to each other, when last movable plate and lower movable plate receive under the effect of arc baffle and button block to the centre removal, go up the heating plate on movable plate and the lower movable plate and can smelt vacuum bag top and bottom into a whole, and then can accomplish tailorring and seal the vacuum bag.

3. This flexible high separation is compound film embossing equipment for vacuum bag processing's spout internal rotation is connected with the screw rod, and the top screw thread of screw rod runs through U type frame, the fixed cover in outer wall of screw rod is equipped with first bevel gear, the carousel internal rotation runs through there is the dwang that extends to in the spout, the one end fixedly connected with of dwang and first bevel gear engaged with second bevel gear, the other end of dwang is equipped with the hexagonal lug with hexagonal lug matched with, and the hexagonal lug extends to in the hexagonal draw-in groove under the pulling force of first extension spring not only can play the braking with the carousel, avoids first embossing roller and U type frame to drive first embossing roller and U type frame and appear rocking when carrying out the knurling, and the round bar passes through hexagonal lug and the rotation of hexagonal draw-in groove drive dwang simultaneously, and then can regulate and control U type frame and first embossing roller's interval, makes first embossing roller and U type frame can be applicable to the vacuum bag knurling operation of different thickness.

4. This flexible high separation is compound film embossing equipment's for vacuum bag processing one side that two turntables are close to each other rotates and is connected with a plurality of first embossing rollers, and the decorative pattern of a plurality of first embossing roller outer walls is different, when needs impression different decorative pattern, releases the rotation of hexagonal lug to the dwang, drives turntables, first embossing roller and second embossing roller through rotating the axis of rotation and rotates, then passes first embossing roller and U type frame with the one end of vacuum bag between to around establishing the outer wall at two hollow liquid storage tubes, thereby can accomplish the impression of the different decorative patterns of vacuum bag on same embossing box.

The utility model has simple structure, can imprint different patterns on the vacuum bag on the same equipment, and drives the rotating rod to rotate by rotating the round rod, so that the distance between the first embossing roller and the second embossing roller is adjusted, the first embossing roller and the second embossing roller can emboss the vacuum bag with different thickness, in addition, when the driving motor is started to drive the rotating shaft to rotate, the embossed vacuum bag can be cut, the hollow liquid storage tube can cool the embossed vacuum bag, and the phenomenon that the patterns of the vacuum bag crack or even deform due to higher temperature after the embossing of the vacuum bag is avoided.

Drawings

FIG. 1 is a three-dimensional view of an embossing device for processing a flexible high-barrier composite film vacuum bag according to the present utility model;

FIG. 2 is a three-dimensional cross-sectional view of an embossing apparatus for processing a flexible high barrier composite film vacuum bag according to the present utility model;

FIG. 3 is a three-dimensional view of a turntable and a first embossing roller of an embossing device for processing a flexible high-barrier composite film vacuum bag;

FIG. 4 is a three-dimensional cross-sectional view of a turntable of an equipment box of an embossing equipment for processing a flexible high-barrier composite film vacuum bag;

FIG. 5 is a three-dimensional matching diagram of a hexagonal clamping groove and a hexagonal lug of an embossing device for processing a flexible high-barrier composite film vacuum bag;

FIG. 6 is a three-dimensional view of a cutting assembly of an embossing device for processing a flexible high-barrier composite film vacuum bag according to the present utility model;

FIG. 7 is a three-dimensional cross-sectional view of a fixing plate of an embossing device for processing a flexible high-barrier composite film vacuum bag according to the present utility model;

FIG. 8 is a three-dimensional cross-sectional view of an upper moving plate and a lower moving plate of an embossing apparatus for processing a flexible high barrier composite film vacuum bag according to the present utility model;

FIG. 9 is a three-dimensional cross-sectional view of a hollow liquid storage tube of an embossing device for processing a flexible high-barrier composite film vacuum bag;

FIG. 10 is a schematic perspective view of a rotating disc and shaft;

FIG. 11 is a front cross-sectional view of an embossing apparatus for processing a flexible high barrier composite film vacuum bag according to the second embodiment of the present utility model;

fig. 12 is an enlarged view at a in fig. 11.

In the figure: 1. an embossing box; 2. a rotating shaft; 3. a turntable; 4. a first embossing roll; 5. a chute; 6. a U-shaped frame; 7. a second embossing roll; 8. a screw; 9. a first bevel gear; 10. a rotating lever; 11. a second bevel gear; 12. a hexagonal clamping groove; 13. a round bar; 14. hexagonal protruding blocks; 15. a circular ring; 16. a first tension spring; 17. a fixing plate; 18. a groove; 19. a riser; 20. an upper moving plate; 21. a lower moving plate; 22. a heating sheet; 23. a blade; 24. a relief groove; 25. a rectangular hole; 26. rectangular blocks; 27. a second tension spring; 28. round blocks; 29. a rotating disc; 30. a rotating shaft; 31. a fixed shaft; 32. a hollow liquid storage tube; 33. a heat sink; 34. a first synchronizing wheel; 35. a second synchronizing wheel; 36. a synchronous belt; 37. a driving motor; 38. a wind-up roll; 39. an arc baffle; 40. a vacuum bag; 41. a discharge port; 42. a spring; 43. a sliding plate; 44. absorbent cotton.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

In the description of the present utility model, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present utility model and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Example 1:

referring to fig. 1-10, an embossing device for processing flexible high-barrier composite film vacuum bags comprises an embossing box 1, a winding roller 38 is rotatably connected to one side of the embossing box 1 through a supporting plate, a vacuum bag 40 is arranged on the outer wall of the winding roller 38 in a surrounding mode, the other end of the vacuum bag 40 penetrates through the embossing box 1, a rotating shaft 2 is rotatably connected to the embossing box 1, two turntables 3 are fixedly sleeved on the outer wall of the rotating shaft 2, one end of the rotating shaft 2 extends to one side of the embossing box 1, a fixing plate 17 is fixedly connected to the embossing box 1 through bolts, one side of the embossing box 1, close to the winding roller 38, is provided with a discharge hole 41, a selecting component for selecting different patterns is arranged between the two turntables 3, a cooling component for cooling the vacuum bag 40 is arranged in the embossing box 1, a cutting component for cutting the vacuum bag 40 is arranged in the fixing plate 17, one side inner wall, which is mutually far away from each other, of the embossing box 1 is rotatably penetrated by a rotating shaft 30, one end, which is mutually close to each other, of the two rotating shafts 30 is fixedly connected with a rotating disc 29 located in a groove 18 through bolts, one side, which is close to the rotating disc 29 is located to the groove 18, one side of the rotating disc 19 is fixedly connected with a rectangular block 39 through a rectangular block 39, a first end is far away from the two end of an arc-shaped motor 35 through a rectangular block 35, a first end is fixedly connected with an arc-shaped motor 35, a second end is fixedly connected with an arc-shaped baffle 35, and a synchronous motor is fixedly connected to one end of the arc-shaped motor 35, and is far away from the arc-shaped motor 30, and is fixedly connected with an arc-shaped baffle 35, and is mutually, and is far away from the arc-shaped, and is fixedly connected with a synchronous motor, and is respectively, and is connected with a synchronous motor.

In the utility model, the selection component comprises a plurality of first embossing rollers 4 rotatably connected between two turntables 3, different patterns are printed on the outer walls of the first embossing rollers 4, a plurality of sliding grooves 5 are arranged on one sides of the two turntables 3, which are close to each other, a same U-shaped frame 6 is slidably connected on one side of the two sliding grooves 5, a second embossing roller 7 is rotatably connected on the U-shaped frame 6, an adjusting component for adjusting the interval between the first embossing rollers 4 and the second embossing rollers 7 is arranged in an embossing box 1, when different patterns need to be printed, the rotation of the rotating rods 10 by the hexagonal lugs 14 is eliminated, the turntables 3, the first embossing rollers 4 and the second embossing rollers 7 are driven to rotate by rotating the rotating shafts 2, and then one end of a vacuum bag 40 passes through the space between the first embossing rollers 4 and the U-shaped frame 6 and is wound on the outer walls of two hollow pipes 32, so that different embossing liquid storage bags 40 can be printed on the same embossing box 1.

According to the utility model, the adjusting component comprises a round rod 13 penetrating through the embossing box 1, one end of the round rod 13 extends into the embossing box 1 and is fixedly connected with a hexagonal lug 14 through a bolt, a plurality of sliding grooves 5 in one turntable 3 are rotatably connected with a screw rod 8, one end of the screw rod 8 penetrates through a U-shaped frame 6 through threads, a first bevel gear 9 is fixedly sleeved on the outer wall of the screw rod 8, a plurality of rotating rods 10 extending into the sliding grooves 5 are rotatably penetrated in one turntable 3, one end of the rotating rod 10 is fixedly connected with a second bevel gear 11 positioned in the sliding grooves 5, the second bevel gear 11 is meshed with the first bevel gear 9, one end of the rotating rod 10, far away from the second bevel gear 11, is provided with a hexagonal clamping groove 12 matched with the hexagonal lug 14, the hexagonal lug 14 extends into the hexagonal clamping groove 12 under the tension of the first tension spring 16, the rotating disc 3 can be prevented from swinging, and simultaneously the first embossing roller 4 and the U-shaped frame 6 are driven by the turntable 3 to shake when the first embossing roller 4 and the U-shaped frame 6 are embossed, the distance between the first embossing roller 4 and the U-shaped frame 6 can be controlled through the hexagonal lug 13 and the hexagonal lug 4, and the first bevel gear 4 can be controlled, and the distance between the first embossing roller and the first embossing roller 4 and the U-shaped frame 6 can be controlled, and the first embossing roller 4 can be controlled, and the distance between the first and the embossing roller and the U-shaped 4 and the U-shaped frame 4 can be adjusted.

In the utility model, the cooling component comprises two fixing shafts 31 penetrating through the embossing box 1, the outer walls of the two fixing shafts 31 are fixedly sleeved with a hollow liquid storage tube 32 positioned in the embossing box 1, the hollow liquid storage tube 32 is contacted with a vacuum bag 40, the inner wall of the hollow liquid storage tube 32 is fixedly connected with a plurality of cooling fins 33 for cooling water stored in the hollow liquid storage tube 32 through bolts, and the two ends of the two fixing shafts 31 are fixedly connected with a first synchronous wheel 34.

In the utility model, the cutting assembly comprises a groove 18 arranged in a fixed plate 17, two vertical plates 19 are fixedly connected to the inner wall of the bottom of the groove 18 through bolts, an upper moving plate 20 and a lower moving plate 21 are fixedly connected to one side, close to each other, of the two vertical plates 19, two heating plates 22 are fixedly connected to one side, close to each other, of the upper moving plate 20 and the lower moving plate 21 through bolts, rectangular holes 25 are formed in the two vertical plates 19, rectangular blocks 26 are fixedly connected to one side, far away from each other, of the upper moving plate 20 and the lower moving plate 21 through bolts, rectangular blocks 26 are fixedly connected to the rectangular holes 25, second tension springs 27 are fixedly connected to one side, far away from each other, of the two rectangular blocks 26 in the same rectangular hole 25, one ends, far away from each other, of the two second tension springs 27 are fixedly connected to the inner walls of the top and the bottom of the rectangular holes 25 respectively, and when the upper moving plate 20 and the lower moving plate 21 are moved towards the middle under the action of an arc-shaped baffle 39 and a round block 28, the heating plates 22 on the upper moving plate 20 and the lower moving plate 21 can integrally smelt the top and the bottom of a vacuum bag 40, and further cut and seal the vacuum bag 40.

According to the utility model, the outer wall of the round rod 13 is sleeved with the first tension spring 16 fixedly connected with one side of the embossing box 1, the outer wall of the round rod 13 is rotatably sleeved with the circular ring 15, the other end of the first tension spring 16 is fixedly connected with the circular ring 15, and the stability of the round rod 13 can be ensured when the round rod 13 moves or rotates outwards through the cooperation of the first tension spring 16 and the circular ring 15.

In the utility model, the bottom of the upper moving plate 20 is fixedly connected with the blade 23 through bolts, the blade 23 is positioned between the two heating plates 22, the top of the lower moving plate 21 is provided with the abdication groove 24 matched with the blade 23, the blade 23 penetrates through the vacuum bag 40 and extends into the abdication groove 24 in the process of moving the upper moving plate 20 and the lower moving plate 21 towards the middle, multiple through holes can be formed on the vacuum bag 40, the cut vacuum bag 40 is conveniently separated in the later period, and the through holes of the blade 23 which are punctured on the vacuum bag 40 do not affect the winding of the winding roller 38 on the vacuum bag 40.

Example 2:

referring to fig. 1-12, an embossing device for processing flexible high-barrier composite film vacuum bags comprises an embossing box 1, wherein one side of the embossing box 1 is rotatably connected with a wind-up roller 38 through a supporting plate, the outer wall of the wind-up roller 38 is wound with a vacuum bag 40, the other end of the vacuum bag 40 penetrates through the embossing box 1, a rotating shaft 2 is rotationally connected with the embossing box 1, two turntables 3 are fixedly sleeved on the outer wall of the rotating shaft 2, one end of the rotating shaft 2 extends to one side of the embossing box 1, a fixing plate 17 is fixedly connected with the embossing box 1 through bolts, a discharge hole 41 is arranged on one side of the embossing box 1 close to the wind-up roller 38, a selection component for selecting different patterns for embossing is arranged between the two turntables 3, a cooling component for cooling the vacuum bag 40 is arranged in the embossing box 1, a cutting component for cutting the vacuum bag 40 is arranged in the fixing plate 17, the inner wall of one side that knurling case 1 kept away from each other all rotates and runs through there is pivot 30, the one end that two pivots 30 are close to each other is all through bolt fixedly connected with and is located the rotating disc 29 in recess 18, one side that rotating disc 29 is close to riser 19 is through bolt fixedly connected with two arc-shaped baffle 39, the one end that two rectangular pieces 26 that are located same rectangular hole 25 kept away from upper movable plate 20 all is through bolt fixedly connected with button 28, and button 28 cooperatees with arc-shaped baffle 39, the one end that two pivots 30 kept away from each other is all through bolt fixedly connected with second synchronizing wheel 35, pass through synchronous belt 36 transmission connection between second synchronizing wheel 35 and the two first synchronizing wheels 34, one side of knurling case 1 is through backing plate fixedly connected with driving motor 37, driving motor 37's output shaft and one of them pivot 30 pass through shaft coupling fixedly connected.

In the utility model, two sliding plates 43 are connected in a sliding manner in a discharge hole 41, water absorbing cotton 44 which is contacted with a vacuum bag 40 is fixedly connected to one side of each sliding plate 43 close to each other, a spring 42 is fixedly connected to one side of each sliding plate 43 far away from each other, one end of each spring 42 far away from each sliding plate 43 is fixedly connected with the inner wall of the discharge hole 41, and in the winding process of a winding roller 38, the two sliding plates 43 respectively move towards the middle under the elastic force of the springs 42, so that the two water absorbing cotton 44 can wipe residual water drops at the top and the bottom of the vacuum bag 40.

s1, pulling a round rod 13 outwards according to the needs of embossing lines, wherein a first tension spring 16 starts to be in a stretched state, the round rod 13 drives a hexagonal lug 14 to be separated from a hexagonal clamping groove 12, a rotating shaft 2 drives two rotating discs 3 to rotate, the rotating discs 3 drive a plurality of first embossing rollers 4 and second embossing rollers 7 to rotate, until the needed first embossing rollers 4 and second embossing rollers 7 are positioned at the lowest position, the pulling force on the round rod 13 is released, the round rod 13 and the hexagonal lug 14 move into the embossing box 1 under the pulling force of the first tension spring 16, the hexagonal lug 14 just extends into the hexagonal clamping groove 12, clamping connection between the round rod 13 and the rotating rod 10 is completed, and at the moment, the round rod 13 can brake the rotating discs 3 and the rotating shaft 2;

s2, due to different thicknesses of the embossed vacuum bags 40, the corresponding first embossing roller 4 and the corresponding second embossing roller 7 are adjusted according to the needs, the hexagonal protruding block 14 is driven to rotate through the round rod 13, the round rod 13 drives the rotating rod 10 and the second bevel gear 11 to rotate due to the clamping connection of the hexagonal protruding block 14 and the hexagonal clamping groove 12, the second bevel gear 11 is meshed with the first bevel gear 9, the second bevel gear 11 drives the screw rod 8 to rotate through the first bevel gear 9, the screw rod 8 is in threaded connection with the U-shaped frame 6, and the U-shaped frame 6 drives the second embossing roller 7 to perform corresponding lifting movement along with the rotation of the screw rod 8, so that the distance between the second embossing roller 7 and the first embossing roller 4 can be controlled, and the vacuum bags 40 can be prevented from being broken when the distance between the first embossing roller 4 and the second embossing roller 7 is too small, or the vacuum bags 40 can not be embossed when the distance between the first embossing roller 4 and the second embossing roller 7 is too large;

s3, when the vacuum bag 40 is embossed, the winding roller 38 winds the vacuum bag 40, the driving motor 37 is started to drive the rotating shaft 30, the second synchronous wheel 35 and the rotating disc 29 to rotate, the second synchronous wheel 35 can drive the fixed shaft 31 and the hollow liquid storage tube 32 to rotate through the first synchronous wheel 34 and the synchronous belt 36, the radiating fin 33 is started, the radiating fin 33 cools water in the hollow liquid storage tube 32, so that the temperature of the hollow liquid storage tube 32 can be lowered, when the vacuum bag 40 passes through the two hollow liquid storage tubes 32, the hollow liquid storage tube 32 can cool the embossed vacuum bag 40, the situation that the vacuum bag 40 has higher temperature after being embossed is avoided, and the patterns of the vacuum bag 40 are cracked or even deformed is avoided;

s4, when the driving motor 37 drives the rotating shaft 30 and the rotating disc 29 to rotate, the rotating disc 29 drives the two arc baffles 39 to rotate, along with the rotation of the arc baffles 39, the arc baffles 39 are contacted with the round blocks 28, the arc baffles 39 drive the round blocks 28 and the rectangular blocks 26 to move towards the middle, so that the upper moving plate 20 and the upper moving plate 20 can rapidly move towards each other, at the moment, the second tension springs 27 are in a stretching state, when the upper moving plate 20 and the lower moving plate 21 move towards each other, the upper layers and the lower layers of the vacuum bags 40 are fused together by the heating plates 22 on the lower moving plate 21 and the upper moving plate 20, and the blades 23 just penetrate through the vacuum bags 40 and extend into the yielding grooves 24, so that the vacuum bags 40 can be cut, the vacuum bags 40 are conveniently and directly used in later stages, the arc baffles 39 are continuously rotated along with the rotation of the rotating disc 29, the upper moving plate 20 and the lower moving plate 21 are respectively moved towards the rapid opposite directions under the action of the corresponding second tension springs 27, and the blades 23 are prevented from affecting the rolling of the rolling-up rollers 38 to roll up the vacuum bags 40;

s5, in the winding process of the winding roller 38, the two sliding plates 43 respectively move towards the middle under the action of the elastic force of the springs 42, and then the two absorbent cottons 44 can wipe the residual water drops at the top and the bottom of the vacuum bag 40.

However, the working principles and wiring methods of the heating plate 22, the driving motor 37 and the cooling plate 33, as known to those skilled in the art, are conventional means or common general knowledge in the art, and will not be described herein in detail, and any choice may be made by those skilled in the art according to their needs or convenience.

The present utility model is not limited to the above-mentioned embodiments, and any person skilled in the art, based on the technical solution of the present utility model and the inventive concept thereof, can be replaced or changed within the scope of the present utility model.

Claims

1. The embossing process for processing the flexible high-barrier composite film vacuum bag is characterized in that the embossing box (1) is rotationally connected with a rotating shaft (2) through the other end of the vacuum bag (40), two turntables (3) are fixedly sleeved on the outer wall of the rotating shaft (2), one end of the rotating shaft (2) extends to one side of the embossing box (1), a fixed plate (17) is fixedly connected in the embossing box (1), and one side, close to the rotating shaft (38), of the embossing box (1) is provided with a discharge port (41);

a selection component for selecting and embossing different patterns is arranged between the two turntables (3);

a cooling component for cooling the vacuum bag (40) is arranged in the embossing box (1);

a cutting assembly for cutting the vacuum bag (40) is arranged in the fixing plate (17);

the selection assembly comprises a plurality of first embossing rollers (4) which are rotatably connected between two turntables (3), different patterns are printed on the outer walls of the first embossing rollers (4), a plurality of sliding grooves (5) are formed in one side, close to each other, of each turntable (3), one U-shaped frame (6) is slidably connected to one side, close to each other, of each sliding groove (5), a second embossing roller (7) is rotatably connected to the U-shaped frame (6), and an adjusting assembly used for adjusting the distance between the first embossing rollers (4) and the second embossing rollers (7) is arranged in the embossing box (1);

the adjusting component comprises a round rod (13) penetrating through the embossing box (1), one end of the round rod (13) extends into the embossing box (1) and is fixedly connected with a hexagonal bump (14), a plurality of sliding grooves (5) in one rotary table (3) are rotationally connected with screw rods (8), one end threads of the screw rods (8) penetrate through the U-shaped frame (6), a first bevel gear (9) is fixedly sleeved on the outer wall of the screw rods (8), a plurality of rotary rods (10) extending into the sliding grooves (5) are penetrated in one rotary table (3), one end of each rotary rod (10) is fixedly connected with a second bevel gear (11) located in each sliding groove (5), the second bevel gear (11) is meshed with the corresponding first bevel gear (9), and one end of each rotary rod (10) away from each second bevel gear (11) is provided with a hexagonal clamping groove (12) matched with the corresponding hexagonal bump (14);

the cooling assembly comprises two fixing shafts (31) penetrating through the embossing box (1), the outer walls of the two fixing shafts (31) are fixedly sleeved with hollow liquid storage tubes (32) located in the embossing box (1), the hollow liquid storage tubes (32) are contacted with a vacuum bag (40), the inner walls of the hollow liquid storage tubes (32) are fixedly connected with a plurality of cooling fins (33) used for cooling the stored water in the hollow liquid storage tubes (32), and the two ends of the two fixing shafts (31) are fixedly connected with first synchronous wheels (34);

the cutting assembly comprises a groove (18) arranged in a fixed plate (17), two vertical plates (19) are fixedly connected to the inner wall of the bottom of the groove (18), an upper moving plate (20) and a lower moving plate (21) are slidably connected to one sides, close to each other, of the two vertical plates (19), two heating plates (22) are fixedly connected to one sides, close to each other, of the upper moving plate (20) and the lower moving plate (21), rectangular holes (25) are formed in the two vertical plates (19), rectangular blocks (26) which are slidably connected to the rectangular holes (25) are fixedly connected to one sides, far away from each other, of the upper moving plate (20) and the lower moving plate (21), second tension springs (27) are fixedly connected to one sides, far away from each other, of the two rectangular blocks (26) in the same rectangular hole (25), of the two second tension springs (27) are respectively fixedly connected to the inner walls of the top and the bottom of the rectangular holes (25);

the inner wall of one side of each embossing box (1) far away from each other is provided with a rotating shaft (30) in a rotating way, one ends of the two rotating shafts (30) close to each other are fixedly connected with a rotating disc (29) positioned in a groove (18), one side of the rotating disc (29) close to a vertical plate (19) is fixedly connected with two arc baffles (39), one ends of two rectangular blocks (26) positioned in the same rectangular hole (25) far away from an upper moving plate (20) are fixedly connected with round blocks (28), the round blocks (28) are matched with the arc baffles (39), one ends of the two rotating shafts (30) far away from each other are fixedly connected with a second synchronous wheel (35), the second synchronous wheel (35) is in transmission connection with the two first synchronous wheels (34) through a synchronous belt (36), one side of each embossing box (1) is fixedly connected with a driving motor (37) through a backing plate, and an output shaft of the driving motor (37) is fixedly connected with one rotating shaft (30);

the outer wall of the round rod (13) is sleeved with a first tension spring (16) fixedly connected with one side of the embossing box (1), the outer wall of the round rod (13) is rotatably sleeved with a circular ring (15), and the other end of the first tension spring (16) is fixedly connected with the circular ring (15);

the bottom of the upper moving plate (20) is fixedly connected with a blade (23), the blade (23) is positioned between the two heating plates (22), and the top of the lower moving plate (21) is provided with a yielding groove (24) matched with the blade (23);

two sliding plates (43) are connected in a sliding manner in the discharge hole (41), water absorbing cotton (44) which is contacted with the vacuum bag (40) is fixedly connected to one side, close to each other, of each sliding plate (43), springs (42) are fixedly connected to one side, far away from each other, of each sliding plate (43), and one end, far away from each sliding plate (43), of each spring (42) is fixedly connected with the inner wall of the discharge hole (41);

the method comprises the following steps:

s1, pulling a round rod (13) outwards according to the needs of embossing lines, wherein a first tension spring (16) starts to be in a stretching state, the round rod (13) drives a hexagonal lug (14) to be separated from a hexagonal clamping groove (12), two turntables (3) are driven to rotate through a rotating shaft (2), the turntables (3) drive a plurality of first embossing rollers (4) and second embossing rollers (7) to rotate until the needed first embossing rollers (4) and second embossing rollers (7) are positioned at the lowest position, pulling force on the round rod (13) is released, the round rod (13) and the hexagonal lug (14) move into an embossing box (1) under the pulling force of the first tension spring (16), the hexagonal lug (14) just extends into the hexagonal clamping groove (12), and clamping of the round rod (13) and the rotating rod (10) is completed, and at the moment, the round rod (13) can brake the turntables (3) and the rotating shaft (2) in the same way;

s2, due to different thicknesses of embossed vacuum bags (40), the distance between the corresponding first embossing roller (4) and the corresponding second embossing roller (7) is adjusted according to the needs, the hexagonal protruding block (14) is driven to rotate through the round rod (13), the round rod (13) drives the rotating rod (10) and the second bevel gear (11) to rotate due to the fact that the hexagonal protruding block (14) is clamped with the hexagonal clamping groove (12), the second bevel gear (11) is meshed with the first bevel gear (9), the second bevel gear (11) drives the screw rod (8) to rotate through the first bevel gear (9), the screw rod (8) is in threaded connection with the U-shaped frame (6), and the U-shaped frame (6) drives the second embossing roller (7) to correspondingly lift and move along with the rotation of the screw rod (8), so that the distance between the second embossing roller (7) and the first embossing roller (4) can be controlled, the distance between the first embossing roller (4) and the second embossing roller (7) is prevented from being too small, and the distance between the first embossing roller (4) and the second embossing roller (7) cannot be too large;

s3, when the vacuum bag (40) is embossed, the winding roller (38) winds the vacuum bag (40), the driving motor (37) is started to drive the rotating shaft (30), the second synchronous wheel (35) and the rotating disc (29) to rotate, the second synchronous wheel (35) can drive the fixed shaft (31) and the hollow liquid storage tube (32) to rotate through the first synchronous wheel (34) and the synchronous belt (36), the radiating fin (33) is started, the radiating fin (33) cools water in the hollow liquid storage tube (32), so that the temperature of the hollow liquid storage tube (32) can be reduced, when the vacuum bag (40) passes through the two hollow liquid storage tubes (32), the hollow liquid storage tube (32) can cool the embossed vacuum bag (40), and the phenomenon that the vacuum bag (40) has higher temperature after embossing is avoided, and patterns of the vacuum bag (40) are cracked or even deformed is avoided;

s4, when the driving motor (37) drives the rotating shaft (30) and the rotating disc (29) to rotate, the rotating disc (29) drives the two arc baffles (39) to rotate, along with the rotation of the arc baffles (39), the arc baffles (39) are in contact with the round blocks (28), the arc baffles (39) drive the round blocks (28) and the rectangular blocks (26) to move towards the middle, so that the upper moving plate (20) and the upper moving plate (20) can move towards each other rapidly, at the moment, the second tension spring (27) is in a stretching state, when the upper moving plate (20) and the lower moving plate (21) move towards each other, the upper layer and the lower layer of the vacuum bag (40) are fused together by the heating plate (22) on the lower moving plate (21), the blades (23) just can penetrate through the vacuum bag (40) to be extended into the yielding grooves (24), further, the cutting of the bag (40) can be conveniently and directly used in the later period, and the rolling disc (29) drives the arc baffles (20) to rotate continuously, and the rolling disc (39) is prevented from affecting the corresponding direction of the upper moving plate (21) and the lower moving plate (38) of the arc baffles (20) in opposite directions;

s5, in the winding process of the winding roller (38), the two sliding plates (43) respectively move towards the middle under the elastic force of the springs (42), and then the two absorbent cottons (44) can wipe residual water drops at the top and the bottom of the vacuum bag (40).